SU401351A1 - DEVICE FOR RESEARCH OF RESPIRATORY SYSTEMS - Google Patents

Description

The invention relates to medical technology, namely to devices for studying the respiratory organs. Apparatus for examining respiratory organs is known, comprising a driving system with a circulating unit, including a sound generator, a power amplifier, a dynamic loudspeaker and sound ducts, and a receiving and recording system including a microphone, a voltage amplifier, a sound pressure level indicator and a recording device. These devices, due to the lack of means to maintain the constancy of the sound signal at the entrance to the upper respiratory tract, as well as the hermetic enclosure of the loudspeaker and the sound ducts, do not provide an opportunity to study the functional properties and pathological changes in the lungs directly during artificial lung ventilation. In order to eliminate these drawbacks in the proposed device, the circulating assembly installed in the driving system is designed as a sealed case with a driving system and a quadruple dynamic loudspeaker in it, one input of which is connected through the sealed air duct to the acoustic chamber of the case, and The driver system is equipped with a negative feedback circuit including an electrically connected microphone mounted on a quad , Voltage amplifier and the detector, whose output is connected to a power amplifier a given system. The drawing shows a block diagram of the proposed device. The device contains a master system and receiving and recording system. The electrical system and the respiratory circulation unit are included in the driver system. The electrical assembly consists of an audio frequency generator 1, a power amplifier 2, a dynamic loudspeaker 3, the generator 1 being electrically connected to a power amplifier 2, the load of which is a dynamic loudspeaker 3. The respiratory circulation unit is airtight and consists of a housing 4 in which dynamic loudspeaker 3, vukoprovod 5, quadruple 6 with taps 7-9 and mouthpiece 10. Sound duct 5 is connected to housing 4 and quadruple 6. Taps 7 and 8 are connected to apparatus 11 for artificial ventilation lungs or to the device for obtaining integral characteristics, for example, spirograph, and outlet 9 - to the mouthpiece 10 or the intubation tube.

The driver system is equipped with a negative feedback circuit, which consists of microphone 12, amplifier 13 and detector 14. Microphone 12, installed in the quad, is electrically connected to amplifier 13 connected to detector 14, from which the signal is sent to amplifier 2 my input .

Microphones 15, amplifiers 16, indicators 17, such as micro-amplifiers, and a recording device 18, such as self-reporters, and microphones 15, which remove acoustic information from the chest, are electrically connected to amplifiers 16, with output indicators installed 17 and the recording device 18.

The device works as follows.

The pulmonary ventilator 11 is connected to taps 7 and 8, and trough 9 through the mouthpiece 10 to the patient.

From the generator 1, through the amplifier 2, the power is transmitted to the dynamic loudspeaker 3, from which sound oscillations enter the sound duct 5. The latter, like housing 4 and quadruple 6, is made airtight, so that you can connect a ventilator to the quadruple .

Acoustic conduit 5 propagates sound vibrations on Thursday 4, and through it into the patient’s upper respiratory tract. Microphone 12 monitors the sound pressure level supplied to the national.

When the sound pressure in the quadruple increases (decreases) due to changes in the patient's acoustic impedance during breathing, the electrical signal that goes to the input of amplifier 13 increases (decreases) and then is rectified by detector 14. The rectified signal acts on amplifier 2, causing a decrease ( an increase in) its gain, which in turn leads to a decrease (increase) in the sound pressure in a quadruple. In this way, the constancy of the sound pressure supplied to the upper airway of the patient is maintained.

Sound vibrations delivered to the patient's upper respiratory tract pass through the airway of the lungs and are converted by microphones 15 installed on the surface of the patient's chest into electrical signals that are amplified by amplifiers 16, are observed on indicators 17 and under-detected by recording device 18.

Thus, the sealing of the respiratory circulatory unit allows a local study of the functional state of the lungs directly in the process of artificial ventilation of the lungs, to obtain simultaneously with the local characteristics of respiration (with spontaneous breathing) integral characteristics. Supplying the device with a negative feedback circuit increases the accuracy of measuring sound pressure on the surface of the chest by maintaining the constancy of sound pressure at the entrance to the patient's upper respiratory tract.

Subject invention

A device for examining respiratory organs, comprising a driver system with a circulation unit, including a sound generator, a power amplifier, a dynamic loudspeaker and sound ducts, and an iriem recording system, including a microphone, a voltage amplifier, a sound pressure level indicator and a recording device, characterized by that, in order to study the functional properties and pathological changes in the lungs directly in the process of artificial ventilation of the lungs, The system has a circulating unit in the form of a hermetic case with a diaiamic loudspeaker of the driving system and a quadruple placed in it, one input of which is connected by means of a sealed air duct to the acoustic chamber of the case at the location of the dynamic loudspeaker interconnected microphone installed in the quadruple, voltage amplifier and detector, the output of which is connected to the power amplifier th system.